KR830002047B1 - Aspirated Fish Transporter - Google Patents

Abstract

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Description

Aspirated Fish Transporter

1 is a side view of the present invention.

2 is a front view of the present invention.

3 is a plan view of the present invention.

4 is an assembled and movable state diagram of the present invention.

The present invention relates to a fish transport device provided to suck fish from the sea, land, or in a processing plant, or to raise fish in a coordination vessel, or to use them in aquaculture farms. Suction the air and water in the vacuum tank, and suck the meat and water through the suction pipe connected to the front part of the tank, and fill the meat and water in proportion proportionally, and then intermittently remove the fish from the outlet behind the tank to the fish storage hopper or Fully automated suction type fish transportation device capable of transporting the transport operation efficiently without damaging the fish by utilizing known fluid engineering principles and electronic control device technology will be described in detail according to the drawings.

That is, the suction side having the flexibility of inserting the suction port 1 into the fishing net or the fish tank, and the check side 3 'with the suction pipe 2 installed in front of the vacuum tank 4 3) connected to the rotary filter network (6) driven by a small reduction motor at the upper edge of the tank and connected to an electronic (solenoid) opening and closing outlet (5) connected to the bottom of the tank. The guide plate 7, which is made of a flexible valve installed in a conical shape in the center of the tank lid, and a micro switch 7 'that detects (detects) the rising or falling displacement of the last plate, can be vertically adjusted. 7) The support was fixed to the lid of the vacuum tank so as to be located at the top of the center.

A float side 11 having a built-in micro switch is placed in the suction pipe 9 communicating with the inside of the one-way rotary filter net 6, and a check valve 12, an intake pipe 10, an intake pump 13, and a silencer 14 are mounted. Connected to the electronic three-way side 17 via a filter 16 having a fine mesh at the end of the intake pipe 9, and an absorption tube 18 connected to the bottom of the hopper 23. Alternatively, the side 17 may be sucked by the absorption pump 20 via the reverse side 19 and connected to the drain 22 through the drain reverse side 21 and the drain 15.

A fish temporary storage hopper 23 was placed below the one outlet 5 and the fish separation network 24 was inclined therein, and the outlet 25 was attached to the outer wall.

Reference numeral 26 denotes an electronic control panel for automatic operation, 27 is a base, 28 is a moving wheel, 29 is a fixture, and 30 is a suction pipe adjusting color line.

When explaining the action and effect of the above-described structure of the fish transport device, the position of the suction port 1 is adjusted to the front and rear, right and left or up and down by the suction tube adjustment color when inserting the end suction port 1 of the fish suction pipe 2 into the fishing net or the tank. If the proper power is inserted under the horizontal plane where the meat and water are mixed and the operating power is turned on, the air in the sealed vacuum tank (4) flows into the intake pump (3) communicating with the suction pipe (9) and the suction pipe (9) and discharge in the suction process. In the process, the absorption pump 20 is jointly operated by the absorption pipe 18 and the electronically switched three-way valve 17, and when the fish (meat and water) in the tank is sucked and filled, it passes through the rotary filtration network 6. The water enters the suction pipe (9) to operate the float valve (11) to block the entry of water to the intake pump, and at the same time the operation of the intake pump (13) with the micro switch built in it automatically stops only the absorption pump (20) Continuous running In order to prevent water leakage (caused by air mixing) around the suction port 1 by draining to the drain port 22, the ratio of meat and water in the tank is gradually increased and the integrated fish body and the flexible conical guide plate ( 7) Push up and gradually switch the micro switch 7 'from NO to NC, and the sequential circuit of the control panel 26 is operated so that the inlet of the three sides is switched so that the suction pipe 9 is blocked and the absorption pipe 18 is opened. When the vacuum release valve 8 is opened and the air in the vacuum tank 4 enters, the check valve 3 'attached to the suction valve 3 is closed by a pressure difference, and the electronic outlet 5 is automatically opened for a short time. While falling into the underlying hopper 23, the water falls under the net 24 and is drained from the absorption pipe 18 to the absorption pump 20 through the three sides 17.

When all the meat in the tank 4 is discharged, the vacuum release valve 8 and the outlet 5 are automatically closed by a separate timer in the control panel, and the intake pump 13 is operated to operate the electromagnetic triangular valve 17. Then, the intake pipe 9 and the absorption pump 20 are opened to repeat the fish water suction action in the vacuum tank 4 again.

Open the tuyeul (25) and take out the fish separated from the water.

As a suctioned fish transportation device made by such a structure and operation, in the conventional vacuum pump type device, when the meat and water in the tank were filled, the suction had to be stopped regardless of the volume ratio of the meat and water. As it was pressurized at a constant pressure momentarily, the impact on the fish was large and at first glance it seemed that there was no trauma, but there was a lot of damage to the internal organs (eg, eggs), and a large amount of water was required, which lowered the freshness of the fish and installed it in a factory. In addition to increasing the amount of water used, there were many difficulties such as increased sewage treatment costs after use.

The present invention can increase the mixing ratio of the meat and water in the tank by filtering the water in the vacuum tank with a strong filter, and can be operated with high efficiency and the distance on the suction side by using the main pump with strong suction power (suction It can hold the head well, and it does not need to be pumped through the input in the tank, and it can flow into the hopper by itself as a vacuum release, and it does not damage the fish body. If the minimum amount of water is kept at the bottom of the tank to maintain airtightness, it is used for repeated transfer to the returning water, which is economical and preserves the freshness of the fish.

Claims (1)

As described above and shown in the drawing, the drain port 22 is provided in close proximity to the end suction port 1 of the suction pipe 2 having the flexibility inserted into the bottom of the tank from the front upper part of the fish suction vacuum tank 4, In response to this, the fish suction pipe suspended in the front and rear sides of the fish suction tube adjustment color (30) and the outlet (5) are connected to the bottom of the rear of the vacuum tank by an electronically controlled opening and closing control net (24). Float side incorporating a micro switch in the suction pipe 9 extending downward from the rotary filter network 6 above the vacuum tank 4 having the fish discharge device in which the outlet 25 is attached to the lower outer side of the excitation hopper 23. (11) through which the air intake pump (13) is mounted and the absorption pipe (18) and suction pipe (20) communicating with the hopper bottom and the drain port (22) at the end of the intake pipe (9). ) Are connected to the triangulation, so that this electronic triangulation (17), hypoallergenic liberation (8), The guide plate 7 interlocked with the electron outlet 5 and the micro switch 7 ', the float side 17 having the micro switch therein, the intake pump 13, and the absorption pump 20 inside the electronic control panel 26. A suctioned fish transport device that can be electrically automated and sequenced in a circuit to perform fully automated operations without damaging live fish.

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